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Nitric oxide formation in an iron oxide pellet rotary kiln furnace
Richard A. Davis
Chemical Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
9
Scopus citations
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Engineering & Materials Science
Nitric oxide
87%
Rotary kilns
87%
Iron oxides
83%
Furnaces
56%
Kilns
46%
Temperature
25%
Gases
21%
Partial pressure
15%
Blast furnaces
14%
Heat radiation
14%
Energy balance
13%
Thermal energy
12%
Probability density function
12%
Nitrogen
11%
Mass transfer
11%
Oxides
11%
Numerical models
10%
Oxygen
10%
Radiation
10%
Flow rate
9%
Heat transfer
8%
Air
7%
Hot Temperature
6%
Earth & Environmental Sciences
rotary furnace
100%
nitric oxide
72%
iron oxide
62%
heat transfer
28%
gas
24%
temperature
24%
rate
21%
secondary flow
18%
net radiation
18%
blast furnace
17%
partial pressure
16%
probability density function
16%
temperature profile
15%
energy balance
15%
airflow
14%
mass balance
14%
mass transfer
13%
oxide
11%
radiation
11%
oxygen
10%
nitrogen
9%
effect
7%
method
3%
Chemical Compounds
Kilns
90%
Pellet
62%
Nitric Oxide
61%
Iron Oxide
60%
Heat Transfer
34%
Flame
28%
Gas
25%
Energy Balance
22%
Blast Furnace
19%
Mass Balance
19%
Partial Pressure
15%
Mass Transfer
13%
Flow Kinetics
12%
Nitrogen
9%
Oxide
8%
Dioxygen
7%